BACKGROUND OF ERGONOMIC BASE FOR THE ROUTES OF A MINING FOREMAN MOVING WHILE COLLECTING DATA ON THE STATE OF RE-CONFIGURABLE MINE VENTILATION NETWORK
- Details
- Parent Category: Geo-Technical Mechanics, 2014
- Category: Geo-Technical Mechanics, 2014, Issue 114
UDC 622.451:658.512.007
Authors:
T.V. Bunko, D. Sc. (Tech.), Senior Researcher,
I.Ye. Kokoulin, Ph. D.(Tech.), Senior Researcher,
M.N. Dudnik, M.S. (Tech.)
(IGTM NAS of Ukraine)
A.Sh. Zhalilov, M.S. (Tech.)
(SE «Selidovugol»)
Abstract.
Ventilation systems in the coal mines are complicated dynamic objects with variable structure and aerodynamic parameters. As an object of control, such technical systems with such features are referred to the class of re-configurable systems whose state requires continuous control. Today such control is realized by combination of stationary and portable devices. Location for stationary device installation is determined by safety regulations, and portable devices are used by mining foremen to control the system state on the preliminary chosen routes basing on a plan of mining operations. In practice, it results in uneven load of the routes and no traffic ergonomics. However, labour intensiveness of the mining foreman motions along the routes could be reduced and basic data could be more truthful if to optimize their content. These aspects should be in the focus of designing of new up-to-date computer methods for forming rational routes and their interconnecting with stationary sensors which measure aerodynamic parameters of the mine ventilation systems. Such approach allows to improve labour productivity of the mining foremen when they move along the routes and collect primary information on a re-configurable ventilation system and control state of stationary devices.
Keywords:
mine vent systems, re-configurable object of control, rational base for routes of mining foreman motion, combination of stationary and portable control devices
References:
1. Ponomarenko, Т.V. (1999), "Метhod optimizations of parameters of developing ventslation networks", Geo-technical mechanics, no.13, pp 84-89.
2. Bokiy, B.V.and Bunko, T.V. (2011), "About the formalyzed invariant method of description by nonlinear мany-polar areas of mine ventilation network with indefinite by a structure and aerodynamic parameters", Geo-technical mechanics, no.92, pp 264-274.
3. State committee of Ukraine on industrial safety, labour protection and mining supervision (2010), NPAOP 10.0-1.01-10: Pravila bezpeki u vugilnirh shakhtakh [NPAOP 10.0-1.01-10 Rules of safety in coal mines], Kiev, Ukraine
4. Bunko, Т.V.(2005), «Метhod authentications of ventilation networks with indefinite aerodynamic parameters», Geo-Technical Mechanics, no. 57, pp 233-238
5. Yensen,P. and Barnes, D. (1984), Potokovoye programmirovaniye [Stream programming], Radio i svyaz, Moscow, SU.
About the authors:
Bunko Tatyana Viktorovna, Doctor of Technical Sciences (D.Sc), Senior Reseacher, Senior Reseacher in the Department of Mineral Mining at Great Depths N.S. Polyakov Institutute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.
Kokoulin Ivan Yevgenyevich, Candidate of Technical Sciences (Ph.D.), Senior Reseacher, Senior Reseacher in the Department of Mineral Mining at Great Depths N.S. Polyakov Institutute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.
Dudnik Michail Nikolayevich, ingeneer in the Department of Rock Thermoatrodynamics and Automated Systems N.S. Polyakov Institutute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM NASU), Dnepropetrovsk, Ukraine,
Zhalilov Alexandr Shamilyevich, Master of Science, Chief mechanical engineer of the state enterprise «Selidovugol», Selidovo, Ukraine.